In vitro characterization of cell-fusing agent virus DNA forms in Aedes aegypti mosquitoes.

ABSTRACT

How non-retroviral endogenous viral elements (EVEs) are established is a long-standing question. Viral DNA (vDNA) forms of RNA viruses are likely to be EVE precursors. Cell-fusing agent virus (CFAV) is a major insect-specific virus (ISV) in the Aedes aegypti mosquitoes and one of the few existing non-retroviral RNA viruses found as EVEs. We characterized CFAV-derived vDNA in the cell line to understand the mechanism of why current viruses are rarely endogenized. vDNA production was affected by cell culture media independent of CFAV replication. vDNAs that correspond to different regions covering the entire viral genome were detected, implying multiple initiation sites exist. A considerable proportion of vDNAs corresponded to ssDNA. Higher vDNA copies were detected in the cytoplasm than the nucleus. Our findings provide valuable insights into the intracellular characteristics of ISV-derived vDNAs, which will aid in understanding the underlying mechanisms of non-retroviral EVE formation.